Scroll device having a pressure plate

Abstract

A scroll device has a housing having a fixed scroll plate and an orbiting scroll plate mounted therein on an idler shaft, the fixed scroll plate having a side having a fixed interleaved involute scroll and an outward facing side, the orbiting scroll plate having a side that has an orbiting interleaved involute scroll, an inlet port for the introduction of a working fluid into the device, and a pressure plate positioned adjacent to the outward facing side of the fixed scroll plate.

Claims

1. A scroll device comprising: a housing having a fixed scroll plate and an orbiting scroll plate mounted therein on an idler shaft, the fixed scroll plate having a side having a fixed interleaved involute scroll and an outward facing side, the orbiting scroll plate having a side that has an orbiting interleaved involute scroll; an inlet port for the introduction of a working fluid into the device; and a pressure plate positioned adjacent to the outward facing side of the fixed scroll plate.

2. The scroll device of claim 1 wherein the pressure plate may be larger than the fixed scroll plate.

3. The scroll device of claim 1 wherein the orbiting scroll plate moves relative to the fixed orbiting scroll plate in an eccentric orbit.

4. The scroll device of claim 1 further comprising fins on the housing.

5. The scroll device of claim 1 wherein the involute scrolls are interleaved spiral projections that mesh together to expand or contract a working fluid.

6. The scroll device of claim 1 wherein the pressure plate is positioned adjacent to the idler shaft.

7. A scroll device comprising: a housing having a fixed scroll plate and an orbiting scroll plate mounted therein on an idler shaft, the fixed scroll plate having a side having a fixed interleaved involute scroll and an outward facing side, the orbiting scroll plate having a side that has an orbiting interleaved involute scroll; an inlet port for the introduction of a working fluid into the device in the case of an expander; an O-ring located around the idler shaft; and a pressure plate positioned adjacent to the outward facing side of the fixed scroll plate.

8. The scroll device of claim 7 wherein the orbiting scroll plate moves relative to the fixed orbiting scroll plate in an eccentric orbit.

9. The scroll device of claim 7 further comprising fins on the housing.

10. The scroll device of claim 7 wherein the involute scrolls are interleaved spiral projections that mesh together to expand or contract a working fluid.

11. The scroll device of claim 7 wherein the pressure plate is larger than the fixed scroll plate.

12. The scroll device of claim 7 wherein the pressure plate is positioned adjacent to the idler shaft.

13. A scroll device comprising: a housing having a fixed scroll plate and an orbiting scroll plate mounted therein on an idler shaft, the fixed scroll plate having a side having a fixed interleaved involute scroll and an outward facing side, the orbiting scroll plate having a side that has an orbiting interleaved involute scroll; an inlet port for the introduction of a working fluid into the device; an O-ring located around the inlet port in the case of an expander, and an outlet port in the case of a compressor; and a pressure plate positioned adjacent to the outward facing side of the fixed scroll plate.

14. The scroll device of claim 13 wherein the pressure plate may be larger than the fixed scroll plate.

15. The scroll device of claim 13 wherein the pressure plate is positioned adjacent to the idler shaft.

16. The scroll device of claim 13 further comprising fins on the housing.

17. The scroll device of claim 13 wherein the pressure plate is positioned adjacent to the fixed scroll plate and the idler shaft.

18. The scroll device of claim 13 and including the motor being totally encased within said housing, and a magnetic coupling provided within the housing to provide for transmission of the rotary motor force to the scroll device.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0015] In referring to the drawings,

[0016] FIG. 1 shows a sectional view of a scroll device having a pressure plate constructed according to the present disclosure; and

[0017] FIG. 2 shows a sectional view of another preferred embodiment of a scroll device having a pressure place constructed according to the present disclosure.

DESCRIPTION OF PREFERRED EMBODIMENTS

[0018] Referring now to the drawings, wherein like numbers refer to like items, number 10 identifies a preferred embodiment of a scroll device having a pressure plate constructed according to the present disclosure. With reference now to FIG. 1, the scroll device 10 is illustrated comprising a housing 12 which seals the device 10 from the atmosphere, a fixed scroll plate 14 and an orbiting scroll plate 16 mounted therein on an idler shaft 18 rotatable within associated bearings 20 and 22. The idler shaft 18 and two additional idler shafts (not shown) roughly spaced 120° apart are designed to take the axial loads and to control the motion of and clearance between the scroll plates 14 and 16 as the plates 14 and 16 move relative to one another. The scroll plates 14 and 16 together form a scroll set or scroll plate pair 24. The fixed scroll plate 14 has a side 26 having a fixed interleaved involute scroll 28. The orbiting scroll plate 16 has a side 30 that has an orbiting interleaved involute scroll 32. The scroll plates 14 and 16 move relative to one another, such as in an eccentric orbit relative to one another. The involute scrolls 28 and 32 are interleaved spiral projections that mesh together to expand or contract a working fluid (not shown) that is provided to the scroll set 24. The device 10 has an inlet port 34 in the case of an expander, for the introduction of a working fluid (not shown) into the device 10 and the scroll set 24. A pressure plate 36 is positioned adjacent to an outward facing side 38 of the fixed scroll plate 14. The pressure plate 36 takes the bulk of the differential pressure between atmospheric pressure and operating pressures within the device 10. By providing the pressure plate 36, the pressure plate 36 is able to deflect and deflection of the fixed scroll plate 14 can be minimized. In this manner, the pressure plate 36 prevents any damage to the scroll set 24. The pressure plate 36 can be larger than the fixed scroll plate 14. The pressure plate 36 is designed to use the low operating pressure as the interface pressure between the pressure plate 36 and fixed scroll 14, in the device 10. The low operating pressure of the device 10 refers to the pressure at the inlet port (not shown). If the scroll device 10 is a compressor then the low operating pressure will be at the inlet port 34. A high operating pressure will be at the outlet port 34 of the device 10. Also, the device 10 has an O-ring 40 provided or located around the inlet port 34. The housing 12 may also have fins 42 provided thereon for transferring heat primarily from the fixed scroll 14 and the orbiting scroll 16 to the housing 12 for evacuation by conduction or a fan (not shown) integrated into the housing 12. A shaft 44 may be connected to the orbiting scroll plate 16. A motor 47 may be connected to the shaft 44 to rotate the shaft 44 and in turn rotate the orbiting scroll plate 16. The motor may be magnetically connected to the shaft 44 by a magnetic coupling (not shown). The magnetic coupling is used for transmitting the torque from the motor to the orbiting scroll plate 16 for appropriate rotation without leakage of the working fluid to the atmosphere. Generally, the motor supplies rotation to the magnetic coupling which then imparts rotation and torque to the shaft 44 and the orbiting scroll plate 16 for usage as a compressor or vacuum pump while a generator (not shown) supplies rotation to the orbiting scroll plate 16 when the device 10 is used as an expander.

[0019] Although one idler shaft 18 is shown, typically there are three idler shafts that are preferably spaced approximately 120° from each other around the outside of the scroll plates 14 and 16. Although the idler shafts 18 is shown positioned between the fixed scroll plate 14 and the orbiting scroll plate 16, the idler shaft 18 could just as easily be located between the orbiting scroll plate 16 and the housing 12.

[0020] FIG. 2 shows another embodiment of a scroll device 100 having a pressure plate constructed according to the present disclosure. The scroll device 100 comprises a housing 102 which seals the device 100 from the atmosphere, a fixed scroll plate 104 and an orbiting scroll plate 106 mounted therein on an idler shaft 108 rotatable within associated bearings 110 and 112. The idler shaft 108 and other support constructions (not shown) are designed to take the axial loads and to control the motion of and clearance between the scroll plates 104 and 106 as the plates 104 and 106 move relative to one another. The scroll plates 104 and 106 together form a scroll set or scroll plate pair 114. The fixed scroll plate 104 has a side 116 having a fixed interleaved involute scroll 118. The orbiting scroll plate 106 has a side 120 that has an orbiting interleaved involute scroll 122. The scroll plates 104 and 106 move relative to one another, such as in an eccentric orbit relative to one another. The involute scrolls 118 and 122 are interleaved spiral projections that mesh together to expand or contract a working fluid (not shown) that is provided to the scroll set 114. The device 100 has an inlet port 124 for the introduction of a working fluid (not shown) into the device 100 and the scroll set 114. A pressure plate 126 is positioned adjacent to an outward facing side 128 of the fixed scroll plate 104. The pressure plate 126 takes the bulk of the differential pressure between atmospheric pressure and operating pressures within the device 100. By providing the pressure plate 126, the pressure plate 126 is able to deflect and deflection of the fixed scroll plate 104 is prevented or eliminated. By providing the pressure plate 126, the pressure plate 126 is able to deflect and deflection of the fixed scroll plate 104 is prevented or eliminated. In this manner, the pressure plate 126 prevents any damage to the scroll set 114. The pressure plate 126 may be larger than the fixed scroll plate 104. The pressure plate 126 is designed to use the high operating pressure as the interface pressure in the device 100. The high operating pressure of the device 100 refers to the pressure at the inlet port 124. If the scroll device 100 is an expander then the high operating pressure will at the inlet port 124. A low operating pressure will be at the outlet (now shown) of the device 100. Also, the device 100 has an 0-ring 130 provided around the idler shaft 108 instead of the inlet port 124.

[0021] The housing 102 may also have fins 132 provided thereon for transferring heat primarily from the fixed scroll 104 and the orbiting scroll 106 to the housing 102 for evacuation by conduction or a fan (not shown) integrated into the housing 102. A shaft 134 may be connected to the orbiting scroll plate 106. A motor (not shown) may be connected to the shaft 134 to rotate the shaft 134 and in turn rotate the orbiting scroll plate 106. The motor may be magnetically connected to the shaft 134 by a magnetic coupling 136. The magnetic coupling 136 is used for transmitting the torque from the motor to the orbiting scroll plate 106 for appropriate rotation without leakage of the working fluid to the atmosphere. Generally, the motor supplies rotation to the magnetic coupling 136 which then imparts rotation and torque to the shaft 134 and the orbiting scroll plate 106 for usage as a compressor or vacuum pump while a generator (not shown) supplies rotation to the orbiting scroll plate 106 when the device 100 is used as an expander.

[0022] Again, although one idler shaft 108 is shown, typically there are three idler shafts that are preferably spaced approximately 120° from each other around the outside of the scroll plates 104 and 106. Although the idler shafts 108 is shown positioned between the fixed scroll plate 104 and the orbiting scroll plate 106, the idler shaft 108 could just as easily be located between the orbiting scroll plate 106 and the housing 102.

[0023] Although not shown, it is contemplated that the scrolls 28 and 32 or the scrolls 118 and 122 can be readily sealed with tip seals (not shown) in acceptable conventional manners and using acceptable conventional materials, including elastomeric sealing materials. U.S. Pat. No. 6,511,308 discloses several examples of acceptable manners and materials for tip seals, which manners and materials should not be considered or treated as being limiting or exhaustive, however.

[0024] From the aforementioned description, a scroll device from the machine class of scroll compressors, pumps, and expanders has been described. This scroll device is uniquely capable of expanding or compressing a fluid cyclically to evacuate a line, device, or space connected to the pump without intrusion of the nearby atmosphere. During operation, the scroll device generates heat within its fixed and orbiting scrolls which is dissipated through cooperating fins upon the surrounding housing. The scroll device may receive its motive power directly from a motor or alternatively from a motor connected to a magnetic coupling, further minimizing the incidence of atmospheric intrusion within the housing and the working fluid. The present disclosure and its various components may adapt existing equipment and may be manufactured from many materials including but not limited to cast metal, metal sheets and foils, elastomers, steel plates, polymers, high density polyethylene, polypropylene, polyvinyl chloride, nylon, ferrous and non-ferrous metals, their alloys, and composites.

[0025] From all that has been said, it will be clear that there has thus been shown and described herein a scroll device having a pressure plate. It will become apparent to those skilled in the art, however, that many changes, modifications, variations, and other uses and applications of the subject scroll device having a pressure plate are possible and contemplated. All changes, modifications, variations, and other uses and applications which do not depart from the spirit and scope of the disclosure are deemed to be covered by the disclosure, which is limited only by the claims which follow.